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Conventional x-ray imaging is firmly established as an invaluable tool in medicine, security, research and manufacturing. However, conventional methods extract only a fraction of the sample
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This scholarship has been funded by a generous donation from Mark Govier, whose passionate interest in the relationship between the Royal Society of London and the British Government inspired his master’s degree research at Flinders University. His M.A. thesis, ‘The Political Alignment of the...
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My primary areas of research activity are two fold: first, studing thermonuclear (X-ray) bursts from accreting neutron stars; and second, searches for optical counterparts of gravitational-wave
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of low-temperature scanning tunneling microscopy and spectroscopy, non-contact atomic force microscopy, photoelectron and x-ray absorption spectroscopies, and time-resolved pump-probe techniques. Our experiments
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PhD student(s) will join a vibrant team of postdocs, academics, and up to four PhD students working collaboratively across modelling, qualitative fieldwork, and optimisation techniques. PhD Research
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are made where and when; supernovae (mechanisms and nucleosynthesis); gamma-ray bursts and their progenitors; modelling of Type I X-ray bursts and superbursts (thermonuclear explosions on the surface
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describing how your background and research area align with the project Degree certificates and relevant academic transcripts, with translations of non-English documentation Applications close on 10 November
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Peterson). This project combines both theory and experiment. "Geometric-flow across diffraction patterns in 4D scanning transmission electron microscopy” (with Dr Scott Findlay and Dr Timothy Peterson
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information: Professor Paul Pigram, oni.scholarship@latrobe.edu.au . Closing date for applications: 31/10/2025 Scholarship code: SRS-25030
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for applications: 31/10/2025 Scholarship code: SRS-25030